Fish granulocytes in the process of inflammation

Abstract

Inflammation is a protective reaction of the host in response to injury, resulting in specific morphological and chemical changes in tissues and cells. In fishes as well, much basic research has been conducted on the process of inflammatory leucocyte migration, which is the most characteristic event of the acute phase. The first response of a host to injury is vasodilatation, followed by increased vascular permeability. These vascular reactions have significance in understanding the mechanism of leucocyte migration, which occurs through the injured blood vessels and in response to chemical mediators converted from certain plasma proteins. Neutrophils migrate more quickly than do monocytes and macrophages during acute inflammation, as has been observed in many fish species. These leucocytes are phagocytes which act to remove irritants, bacteria, or damaged cells and tissues. Rapid migration of basophils is also distinguishable in carp (Cyprinus carpio) and puffer (Takifugu niphobles), although the functions of the cells in inflammation have not been clarified. Leucocytic infiltration in inflammation can be explained by chemical mediators. Complement factors, leucotriene B₄ and a lymphokine, have been identified as chemotactic and chemokinetic factors for fish neutrophils. Besides these host factors, bacterial formyl peptides are reported to be chemoattractive for plaice (Pleuronectes platessa) neutrophils. The process of leucocytic migration in various types of inflammation has specific features, which are controlled by a variety of such chemical mediators. However, our knowledge at present represents but a glimpse of the intricacies of fish inflammation.